Abstract: The design of a cognitive agent requires a behaviour control of actions and observations for exploring an unknown world.

It is shown that density matrices make the many-world-semantics feasible and are well suited to model the inner stage and proposed algorithms for learning ...

The paper describes an algorithm for cognitive representation of triples of related behavioral contexts two of which correspond to mutually exclusive states of ...

Denormalized Quantum Density Operators for Encoding Semantic Uncertainty in Cognitive Agents. Ingo Schmitt, Ronald Römer, Günther Wirsching, Matthias Wolff ...

Denormalized quantum density operators for encoding semantic uncertainty in cognitive agents. ... Some algebraic aspects of semantic uncertainty and cognitive ...

This article aims to propose for the first time an approach using quantum logic in image processing for shape classification. We show how to make use of the ...

Abstract—We present a model, inspired by quantum field theory, of the so-called inner stage of technical cognitive agents.

... Wolff, M.: Denormalized quantum density operators for encoding semantic uncertainty in cognitive agents. In: 8th IEEE International Conference on Cognitive ...

... Quantum Mechanical Model of the Inner Stage of Cognitive Agents ... Denormalized quantum density operators for encoding semantic uncertainty in cognitive agents.

Denormalized quantum density operators for encoding semantic uncertainty in cognitive agents. Proceedings of the 2017 8th IEEE International Conference on ...